DRIVE STARTUP MANUAL Magnetek DSD 412 Drive Induction Motor Installation www.smartrise.us 2601 Fair Oaks Blvd., Sacramento, CA 95864 916.457.5129
Magnetek DSD 412 Drive EQUIPMENT/SETTINGS VERIFICATION Verify that the Job Specification parameter table on the drawings Sheet 1: Getting Started matches the actual equipment. Below is a sample table showing the important values that will affect operation. Motor Volts Motor Amps Motor RPM Sample: Sheet 1: - Getting Started Main Line Volts Motor HP Motor Poles Motor Frequency Brake Volts Pick/Hold Encoder PPR 2
CONTROLLER GROUNDING REQUIREMENTS NOTE For the controller to function properly it is very important to provide proper building ground connections to the controller. Examples of a proper building-to-controller ground connection is to attach the ground cable to: The street side of the incoming water main. To a grounding rod that has been driven into the pit flooring. The controller has a common ground bus terminal connection. All grounds need to land at this common point including building, motor, transformer, and filter grounds. This prevents ground loops, and will limit the impedance between the grounds and noise will be channeled back to building ground. Providing a proper ground is mandatory and will improve the performance of the controller. 3
WIRING (Check off box when complete) ** Refer to the Appendix for the following connections ** Power (Sheet 3: Machine Room connections) Connect main line power to terminal block L1/L2/L3. Connect the ground wire to the yellow/green terminal block next to L1-L3. Brake (Sheet 5: Brakes) Connect the main brake wiring to terminals K1 / K2 and the secondary brake wiring (if equipped) to terminals J1 / J2 located on the terminal block next to the M contactor. Motor / Encoder (Sheet 4: Drive and Motor) Connect motor leads to the M contactor at T1/T2/T3. Connect the encoder cable to the TB1 encoder terminal block located under the lower cover. The following table contains wiring references for common encoders. 4
CONSTRUCTION (Sheet 1: Construction) The following instructions are from the job drawings: Sheet 1 Construction. Refer to the job s specific drawings for connections. Construction Box from Sheet 1 (Sample) 24VDC connections to SRU board IOs 120VAC connections to DIN Rail terminals Emergency brake power 24v DC connections Install jumpers between M24 and the IOs listed on Sheet 1: Getting Started Construction. IMPORTANT! REMOVE FACTORY WIRES ON INPUTS 521/522 o Install the Run Bug Up/Down Switch to IO s 521/522 120v AC connections Install the temporary run switch between 120 and terminal SF1 and 120 to THL/MHL/BHL terminals on the DIN rail. Install a jumper between EB and the terminal listed on the drawings on Sheet 1: Getting Started Construction. 5
POWERING UP (Check off box when complete) Apply external power by closing the main disconnect. Close the L1/L2 breaker, the M24, PS, BR and EBR breakers. Verify that the LCD on the Smartrise board and the Magnetek Drive come on. Down = ON Up = OFF Red in Window ON Green in Window OFF FINAL SETUP (Check off box when complete) Toggle the Inspection/Normal switch to the INSP position. Set BYPASS TERM LIMITS to YES: o On the Smartrise Machine Room controller board, press the Left Arrow (ESC) button several times to get to the MAIN SCREEN. o Press the Right Arrow to go to MAIN MENU. Use the Up / Down Arrow keys and move the asterix to SETUP and press the enter key. MAIN MENU Status Faults *Setup 6
o Use the Up / Down Arrow keys and move the asterix to MISC and press the enter key. SETUP Local Outputs Security *Misc o BYPASS TERM LIMITS should be the first item listed. If it s not there use the Up / Down Arrow keys and move the asterix to BYPASS TERM LIMITS and press the enter key. MISC *Bypass Term Limits Emergency Power Monitor BPS o Use the Up / Down Arrow keys to change the word NO to YES. BYPASS TERM LIMITS NO * o Use the RIGHT Arrow key and move the asterix under the word SAVE and press enter. BYPASS TERM LIMITS YES Save * o Hit the LEFT Arrow (ESC) button several times to get to the MAIN SCREEN. Verify the LCD displays Construction Mode on the MAIN SCREEN. 7
MAGNETEK DSD412 SETUP Refer to the recommended connections shown in the connection diagrams. Attach a voltmeter across the 115vac source for the control power supply at A4TB3-1 & A4TB3-7. 1. Attach L1, L2 & L3 to the corresponding terminals on the drive. L3 L2 L1 2. Attach wires from the L1 & L2 terminals to the L1 & L2 terminal block on the din rail. L2 L1 3. Connect the armature wiring to the terminal block according to the amperage rating listed on the motor. Make sure to set the dipswitch to the value that matches the amperage rating. Dip Switch Setting Dip Switch Location Amperage Setting 8
4. If you haven t already done this, connect the encoder to TB1 using the color codes provided by the manufacturer or the reference tables in the manual. 5. Apply the control and three-phase power and verify that the control power is between 103vac and 126vac. Then press the RESET push button on the front of the power cube, and observe the drive power-up sequence as described below. DRIVE POWER-UP SEQUENCE The power up sequence can be observed by monitoring the Standard Control/Display Unit (SCDU) on the front of the power cube. 1. First, all of the segments on the digital LED display and all of the LEDs will come on for about 1 second. 2. Next, the LEDs and display should turn off. The drive will perform internal checks. The SCDU will display 'test' while a self-test is being performed. 3. If the drive passes the self-test, then the SCDU will display 'P-UP'. 4. READY LED will light. ABNORMAL DISPLAY CONDITIONS Displays other than those mentioned above may occur. The following is a list of abnormal display conditions that may occur, and the actions necessary to correct the situation: 9
1. If no digits or LEDs light up, then check for proper voltage between the 115vac control power lines, or for blown 115vac control power fuses, or for a defective Control Voltage Power Supply in the power cube. 2. If horizontal segment(s) of the SCDU display are lit, then one or more phases of the three-phase power are missing. Measure and verify three phase power input at the drive terminals. Check the three-phase power fuses. 3. If the FAULT LED lights, and a fault code appears on the SCDU, then refer to the Fault/Error Codes List to see what caused the fault and to find the correct solution. A fault code is the letter 'F' followed by a number representing the fault. 4. If the SCDU displays 'Prot', then the initial checks found that the protected non-volatile RAM (NVRAM) has not been initialized. Move the NV RAM PROTECTION switch to "OFF" in order to allow the microprocessor to initialize the NVRAM with preprogrammed default values. Notice that the NV RAM UNPROTECTED LED is now lit to indicate the NV RAM PROTECTION switch position. Next, press the RESET push button. The drive will go through its power up sequence again; however, this time it will initialize the unprotected NVRAM and load in factory supplied default parameter values. NV RAM Protect Switch FAN CHECK 1) On drives with a blower motor (power bridge fan), verify that the fans are working. 10
VERIFY PARAMETERS When the READY LED on the SCDU is lit, all the selectable parameter data should be checked and/or verified to the proper values as follows: 1. VERIFY OR CHANGE EACH PARAMETER VALUE for the particular application and motor involved. 2. STORE PARAMETERS, Function # 994, so that power can be removed and reapplied without losing the entered parameters. 3. Set the NV RAM PROTECT switch to the protect position (UN PROT NV RAM light is off) to ensure that set up data cannot be corrupted. 4. Operate drive, using external control signal inputs shown on the Interconnection Diagram. Verify the following parameters in the Magnetek DSD412 are set correctly. The job specific values are listed on Sheet: 04 Drive and Motor. Parameter Description 2 Use Self Tune Logic On 3 7 Rated Armature Current Rated Armature Voltage 9 Nominal AC Voltage Recommended Value Motor Name Plate Motor Name Plate Drive Supply Voltage 10 Encoder PPR Per Encoder 11 Motor RPM Motor Name Plate 17 Rated Car Speed Per Job Specification 49 Weak Field Current 50 Rated Field Current Motor Name Plate Motor Name Plate 52 Rated Field Voltage Motor Name Plate 53 Standby Field Current 25% 11 Additional Information This parameter cannot be set to ON until performing the self-tune. This is the voltage coming into the drive. Not necessarily the line voltage if a step-up or step-down transformer is being used. If this value is greater than the Rated Field Current, then the field will never weaken. The drive must be configured for the correct field current range. See page 28 in the Magnetek manual for dip switch settings.
Parameter 115 Description Run-Up/Run-Down Sel Recommended Value On 150 Binary Speed Select On 12 Additional Information Must be On for compatibility with Smartrise controller. Must be On for compatibility with Smartrise controller. 151 Speed 1 Reference 10 Smartrise Speed: Leveling 153 Speed 3 Reference 50 Smartrise Speed: Inspection 154 Speed 4 Reference Per Job Smartrise Speed: S1 155 Speed 5 Reference Per Job Smartrise Speed: S2 156 Speed 6 Reference Per Job Smartrise Speed :S3 157 Speed 7 Reference Per Job Smartrise Speed :S4 170 Acceleration #1 Time 5.00 172 Deceleration #1 Time 5.00 174 Acceleration #1 %S Time 25.00 176 Declaration #1 %S Time 25.00 MAGNETEK DSD412 DRIVE SELF TUNE PROCEDURE 1. Place a jumper from 120 on the DIN rail to terminal #11 on the LPR Relay. 2. Put the NVRAM Protected Switch in the Not Protected position. 3. Perform PCU DIAGNOSTICS Function 998 to verify armature and field circuitry. 4. Perform SELF-TUNE PARAMETER TEST Function # 997. The drive should display PASS after a few seconds. Set Parameter #2 to ON. 5. Remove the jumper and perform Function #994 to permanently save the changed values. 6. Go to MAIN MENU SETUP MISC BYPASS TERM LIMITS and set to YES. 7. Verify the Smartrise Machine Room board LCD is not showing an active fault as indicated by a flashing Red LED, and it displays Construction Mode. 8. Close the Run Bug Stop Switch 9. Command the Car to move. 10. Ensure the brake is picking/holding after a valid run command
is given. Also, ensure the brake is dropping once the command is removed. 11. Verify the timing and operation of the brake to ensure to motor is not running through the brake prior to it picking. i. Adjustments can be made to the Brake Pick timing by going to MAIN MENU SETUP TIMERS: ii. Brake Pick Delay: The amount of time for the brake to lift before a non- zero speed is given iii. Brake Hold Time: The duration time between Brake Pick and Brake Hold iv. Brake Drop Delay: The amount of time the Brake will remain lifted after the car is given a zero speed command. b. If the brake is inoperative check the following: c. Check for DC voltage between points K1 and K2 on the Machine Room DIN Rail. d. Verify this voltage is also at the Brake Coil when commanded to pick. e. Ensure this voltage corresponds to the voltage the Brake Coil is rated for. f. If problems persist contact Smartrise for assistance. 12. The encoder feedback may be out of phase upon first power up. This may cause the motor to run faster than commanded and/or give drive fault 408/98. If this occurs remove line power and swap the encoder A and A- wires. 13. Reapply Line power and command the car to move. The car should now move at the programmed Inspection Speed. 14. If the Motor is running in a reverse direction from what is commanded swap the field (+) and (-) wires. It may be necessary to swap the encoder A and A- wires after changing the field wires. 15. Go to MAIN MENU SETUP MISC BYPASS TERM LIMITS and set to NO. 13
SHUDDERING AT HIGH SPEED 1. Motor voltage vs. transformer secondary input voltage Recommendation is that the transformer secondary voltage be at a minimum equal to rated armature Vdc. For best results that account for sagging utility, etc, Vac = 1.05 x Vdc is a better number to use. 2. Make sure that the motor weak field current is adjusted so that with full load up at rated speed yields the rated Vdc used above. 3. Rope resonance Use the high speed / low speed bandwidth adjustments (#39 & 40). Reduce the setting of High speed bandwidth to maybe 50% of that for low speed. Set the gain change speed (#105) at 25-50% of rating. Elevator speeds of 350-500 with 2:1 roping can be problematic. Using the notch filter may help (#190, 191). 4. Make sure there is no slop/backlash in the encoder coupling and that the encoder is not wobbling or vibrating. 5. Keep Tach Rate Gain (#107) at zero. 6. Verify the correct motor & encoder data and performed diagnostics (#998) and self tune (#997) and used the values for self tune (#4, 6, 51). [Recommend copying them from (#613, 614, 615) to Manual settings and then specifying to use them (#2)]. 7. Reduce motor armature response (#8) to 250 r/sec. 8. Make sure there is a ground bonding wire from motor frame to drive chassis. 9. Make sure the encoder is electrically insulated from the motor shaft and frame. 10. If using a friction wheel encoder, make sure both surfaces are perfectly round. 14
OPERATION (Check off box when complete) Run the car and verify the following: No Faults Make sure the car is moving without triggering a fault either on the Smartrise SRU or the drive. If the SRU board displays a Drive Fault on the SRU, look at the drive to see what the fault is. o Go to Troubleshooting Drive Fault / Encoder Flt for corrective actions. Proper Direction Make sure the car is moving in the same direction as the control switch on the Run Bug. At Speed o Go to Troubleshooting Wrong Direction for corrective actions. Make sure that the car is moving at the proper inspection speed (approx. 50 FPM). Under Control o Go to Troubleshooting Car Moving Too Slow or Rough for corrective actions. Make sure that the car is moving under full control. The car should stop when commanded from the Run Bug. Verify that the car runs with no faults for 10 seconds or more. o Go to Troubleshooting Brake Not Lifting for corrective actions. 15
TROUBLESHOOTING DRIVE FAULT / ENCODER FLT 1. The most common fault at startup with a Magnetek drive is the Encoder fault. Perform the following checks to correct this fault: a. Check for a solid shield-to-ground connection at the motor and drive. b. Check for correct colored encoder wires to the terminals. c. Swap A+ / A- on terminal TB1. BRAKE NOT LIFTING 1. If the brake is not picking make sure that it is wired according to Sheet 5 Brake & Hydro Options and verify that the EB terminal is jumped to the terminal listed on Sheet 01 Getting Started. If it has the proper voltage check the following: a. During a run command, check for DC voltage between points K1 / K2 and J1 / J2 (if 2 nd brake installed). Verify the voltages are also at the Brake Coil(s) when commanded to pick. b. Verify that the voltages match the Brake Coil voltages shown on Sheet 1: Getting Started table. WRONG DIRECTION 1. If the car is moving in the wrong direction: a. On the Smartrise controller board make sure that IO 521 comes on when commanding the UP direction and IO 522 comes on when commanding the DOWN direction. CAR MOVING TOO SLOW OR ROUGH 1. Swap the encoder wires A+ and A- on drive TB1. 2. Verify the brakes are lifting fully. 16
APPENDIX Terminal Locations GND terminals Motor terminals T1/T2/T3 Brake terminal block 17